Activation of subnanometric Pt on Cu-modified CeO2 via redox-coupled atomic layer deposition for CO oxidation

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作者
Xiao Liu
Shuangfeng Jia
Ming Yang
Yuanting Tang
Yanwei Wen
Shengqi Chu
Jianbo Wang
Bin Shan
Rong Chen
机构
[1] Huazhong University of Science and Technology,State Key Laboratory of Digital Manufacturing Equipment and Technology, School of Mechanical Science and Engineering
[2] Huazhong University of Science and Technology,State Key Laboratory of Materials Processing and Die and Mould Technology, School of Materials Science and Engineering
[3] Wuhan University,School of Physics and Technology, Center for Electron Microscopy, MOE Key Laboratory of Artificial Micro
[4] Chemical Sciences and Materials Systems Lab, and Nano
[5] Chinese Academy of Sciences,structures, and Institute for Advanced Studies
[6] Clemson University,General Motors Global Research and Development
来源
Nature Communications | / 11卷
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摘要
Improving the low-temperature activity (below 100 °C) and noble-metal efficiency of automotive exhaust catalysts has been a continuous effort to eliminate cold-start emissions, yet great challenges remain. Here we report a strategy to activate the low-temperature performance of Pt catalysts on Cu-modified CeO2 supports based on redox-coupled atomic layer deposition. The interfacial reducibility and structure of composite catalysts have been precisely tuned by oxide doping and accurate control of Pt size. Cu-modified CeO2-supported Pt sub-nanoclusters demonstrate a remarkable performance with an onset of CO oxidation reactivity below room temperature, which is one order of magnitude more active than atomically-dispersed Pt catalysts. The Cu-O-Ce site with activated lattice oxygen anchors deposited Pt sub-nanoclusters, leading to a moderate CO adsorption strength at the interface that facilitates the low-temperature CO oxidation performance.
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